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    • 1. 发明专利
    • Faucet
    • 龙头
    • JP2005082965A
    • 2005-03-31
    • JP2003312509
    • 2003-09-04
    • Kobayashi HiroshiOgawa YasushiOnodera Hirobumi小川 康司小林 博小野寺 博文
    • KAMEYAMA TADASHI
    • E03C1/042E03C1/086
    • PROBLEM TO BE SOLVED: To provide a faucet which prevents adhesion of soil thereto even after long-term service, spouts an ordinary straight stream of water in the same manner as a conventional faucet, and also spouts a stream of water fitted for washing dishes, vegetables, and precut vegetables for salad.
      SOLUTION: The faucet has a discharge port arranged at the tip thereof, for spouting a straight stream of water; a discharge port consisting of slits formed in a lower surface thereof in an axial direction, for spouting a cascade-like stream of water; a guide channel axially arranged in the faucet, for guiding water and hot water toward the discharge port at the tip, for spouting the straight stream of water; and a guide channel axially arranged in the faucet, for guiding water and hot water toward the slit-like discharge port for spouting the cascade-like stream of water.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了提供即使在长期使用后也能防止土壤粘附的水龙头,以与常规水龙头相同的方式喷出普通的直流水,并且还喷出适于 洗菜,蔬菜和沙拉预切蔬菜。 解决方案:龙头具有排列在其顶端的排出口,用于喷出直流水; 排出口,其沿轴向形成在其下表面上的狭缝,用于喷射级联状的水流; 引导通道,其轴向地布置在所述龙头中,用于将水和热水引导到所述尖端处的排出口,用于喷射所述直的水流; 以及轴向布置在所述龙头中的引导通道,用于将水和热水引导到所述狭缝状排出口,用于喷射所述级联的水流。 版权所有(C)2005,JPO&NCIPI
    • 6. 发明专利
    • BURIED TYPE SNOW-MELTING DEVICE
    • JPH1082027A
    • 1998-03-31
    • JP25777296
    • 1996-09-06
    • KOBAYASHI HIROSHI
    • KOBAYASHI HIROSHI
    • E01H5/10
    • PROBLEM TO BE SOLVED: To provide a buried type snow-melting device capable of melting snow without using a heating means. SOLUTION: In the buried type snow-melting device, a snow-throwing port cover 7 is installed to a snow throwing port 5 in a freely opening-closing and retainable manner, and a snow-melting tank 1, in which a drain inlet 13 is formed to a side wall, is buried into the ground E while the snow-throwing port cover 7 is placed along a ground surface. Snow drains 9 in openings at both ends are hung horizontally to the lower sections of the snow- throwing port 5 in sections upper than the overflow surface W of the snow-melting tank 1 at that time, and an underwater electric-pump shroud cylinder 18 is fitted internally to an underwater electric-pump support base 14 installed into the snow-melting tank 1 in a section lower than the overflow surface W while an upper edge section is projected from the overflow surface W. An underwater electric pump 15 is placed on the underwater electric- pump support base 14 in the unwrwater electric-pump shroud cylinder 18, a nozzle 17 is connected at the upper end section of the delivery pipe 16 of the underwater electric pump 15 while being faced to one opening sections of the snow drains 9, a suction pipe 20 is suspended from the lower section of the tmderwater electric-pump support base 14, and water in the snow-mel ting tank 1 is pumped up by the undervrater electric pump 15 and inffected to snow on the snow drains 9 from the nozzle 17 and flowed dwon into the snow-melting tank 1, and melted by water in the snow-melting tank 1, in which geothemal energy is accumulated.
    • 10. 发明专利
    • JPH05312594A
    • 1993-11-22
    • JP11590092
    • 1992-05-08
    • RICOH KKKOBAYASHI HIROSHIMACHIDA HARUHIKO
    • KOBAYASHI HIROSHIMACHIDA HARUHIKOYAMAGUCHI TOMOYUKI
    • G01D5/36
    • PURPOSE:To increase the S/N of the detecting signal of a shadowgraphic diffraction grating pattern by increasing the contrast of the pattern. CONSTITUTION:This method is used for manufacturing a grating cylinder which is equipped with a grating pattern 1 on its peripheral surface and used for the rotor of rotary encoders and by which a grating pattern 1 is formed by forming a metallic film 22 in a striped pattern in such a way that a photoresist layer 23 is formed on the metallic film 22 after coating the surface of a nonreflective cylindrical substrate 21 with the film 22 and all periphery of the layer 23 is exposed to a grating-like optical pattern by forming the image of a grating-like optical pattern on the surface of the layer 23 while the substrate 2, is rotated around its axis. Then the layer 23 is left along the optical pattern on the peripheral surface of the film 2, by developing the layer 23 and removing the layer 23 after the film 22 is etched by using the layer 23 as a mask.